Analysis of gene expression of mESC-derived cardiac purkinje fiber-like cells at mRNA level. Dysfunction of the cardiac conduction system (CCS) significantly impacts pathogenesis of arrhythmia, a major cause of morbidity and mortality. Strategies to derive cardiac conduction cells including Purkinje fiber cells (PC) would facilitate models for mechanistic studies and drug discovery, and also provide new cellular materials for regenerative therapies. A high-throughput chemical screen using CCS:lacZ and Contactin2:eGFP (Cntn2:eGFP) reporter embryonic stem cell (ESC) lines was used to discover a small molecule, sodium nitroprusside (SN), that efficiently promotes the generation of cardiac cells that express gene profiles and generate action potentials of PC-like cells. Imaging and mechanistic studies suggest that SN promotes the generation of PC from cardiac progenitors initially expressing cardiac myosin heavy chain, and that it does so by activating cAMP signaling. These findings provide a novel strategy to derive scalable PC, along with insight into the ontogeny of CCS development. Overall design: Total RNA isolated from mESC-derived cardiac purkinje fiber-like cells. Mouse Contactin2:eGFP transduced with Lenti-viral aMHC: mCherry embryonic Stem Cells was used. Day 4 of differentiated cells were treated with Sodium Nitroprusside(SN). After 25 days differentiation, by using FACS, we could separate SN-induced cells into three populations: negative, aMhc:mCherry+ (MHC) and Cntn2:eGFP+/dim aMhc:mCherry+(GFP). We then sequenced mRNA from these three populations and found that Cntn2:eGFP+ cells express cardiac purkinje-fiber gene profiles.
Efficient Generation of Cardiac Purkinje Cells from ESCs by Activating cAMP Signaling.
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View SamplesA-to-I RNA editing is a conserved and widespread phenomenon in which adenosine (A) is converted to inosine (I) by adenosine deaminases (ADARs) in double-stranded RNA regions. Although human RNAs contain millions of A-to-I editing sites, most of these occur in noncoding regions and their function is unknown. Knockdown of ADAR enzymes in C. elegans causes defects in normal development but is not lethal as it is in human and mouse, making C. elegans an ideal organism for studying the regulatory effects of RNA editing on the transcriptome. Previous studies in C. elegans indicated competition between RNA interference (RNAi) and RNA editing mechanisms, with the observation that lack of both mechanisms can suppress defects observed when only RNA editing is absent. To study the effects of RNA editing on gene expression and function, we established a novel screen that enabled to identify thousands of RNA editing sites in non-repetitive regions in the genome. These include dozens genes that are edited at their 3’UTR region. We found that these genes are mainly germline and neuronal genes and that they are downregulated in the absence of ADAR enzymes. Moreover, we discovered that almost half of these genes are edited in a developmental-specific manner. In addition, we found that many pseudogenes and other lncRNAs are also extensively downregulated in the absence of ADARs in embryo but not L4 larva developmental stage, while this downregulation is not observed in additional knockout of RNAi. Taken together, our results suggest a role for RNA editing in normal growth and development by regulating silencing via RNAi. Overall design: RNA-seq samples were generated from: 1. wildtype (N2) at embryo stage 2. wildtype (N2) at L4 stage 3. ADAR mutant (BB21 or BB4) worms at L4 stage 4. ADAR mutant (BB21 or BB4) worms at embryo stage 5. ADAR mutant and RNAi mutant (BB23, BB24) at embryo stage RNA in high and low molecular weight fractions was extracted by mirVana kit (ambion). mRNA was sequenced from the high molecular weight fraction by means of Illumina TruSeq® RNA Sample Preparation kit automated by Agilent Bravo Automated Liquid Handling Platform. The resulting libraries were sequences with an Illumina HiSeq 2500.
A-to-I RNA editing promotes developmental stage-specific gene and lncRNA expression.
Specimen part, Cell line, Subject
View SamplesOur data mark GIP as a beneficial immunoregulator during obesity and suggest a novel untapped therapeutic potential for specific targeted GIP analogs.
Glucose-Dependent Insulinotropic Polypeptide Receptor Deficiency Leads to Impaired Bone Marrow Hematopoiesis.
Sex, Specimen part
View SamplesThe placenta is a nonsupportive microenvironment for cancer cells. We showed that breast cancer cells (BCCL) were eliminated from placental implantation sites. During implantation, the placenta manipulates its surrounding matrix, which may induce BCCL elimination. Here, we explored the effect of placenta-induced ECM manipulations on BCCL. During experiments, BCCL (MCF-7/T47D) were cultured on placenta/BCCL-conditioned ECM (Matrigel used for first trimester placenta/BCCL culture and cleared by NH4OH). After culturing the cells, we analyzed cancer cell phenotype (death, count, aggregation, MMP) and signaling (microarray analysis and pathway validation). We found that the BCCL did not attach to previous placental implantation sites and instead, similarly to anoikis-resistant cells, migrated away, displayed increased MMP levels/activity, and formed aggregates in distant areas. T47D were less affected than the MCF-7 cells, since MCF-7 also showed modest increases in cell death, EMT, and increased proliferation. Microarray analysis of the MCF-7 highlighted changes in the integrin, estrogen, EGFR, and TGFb pathways. Indeed, placental ECM reduced ERa, induced Smad3/JNK phosphorylation and increased integrin-a5 expression (RGD-dependent integrin) in the BCCL. Addition of RGD or TGFbR/JNK inhibitors reversed the phenotypic changes. This study helps explain the absence of metastases to the placenta and why advanced cancer is found in pregnancy, and provides possible therapeutic targets for anoikis-resistant cells.
First trimester human placenta prevents breast cancer cell attachment to the matrix: The role of extracellular matrix.
Specimen part, Treatment
View SamplesGata5 efficiently promotes cardiomyocyte fate from murine ESCs.By removing serum from the culture conditions, GATA4 and GATA6 are each also able to efficiently promote cardiogenesis in ESC derivatives, with some distinctions. Thus, GATA factors can function in ESC derivatives upstream of other cardiac transcription factors to direct specification of progenitors with cardiac potential.
GATA factors efficiently direct cardiac fate from embryonic stem cells.
Cell line
View SamplesAmong the dendritic cell (DC) subsets, plasmacytoid DCs are thought to be important in both generating antiviral and antitumor responses. These cells may be useful in developing dendritic cell-based tumor vaccines, however, the rarity of these cells in the peripheral blood have hampered attempts to understand their biology. To provide better insight into the biology of plasmacytoid DCs, we isolated these cells from the peripheral blood of healthy donors in order to further characterize their gene expression. Using gene array technology we compared the genetic profiles of these cells to those of CD14+ monocytes isolated from the same donors and found several immune related genes upregulated in this cell population. Understanding the genetic profiles of this dendritic cell subtype as well as others such as the BDCA-1 expressing myeloid DCs may enable us to manipulate these cells ex-vivo to generate enhanced DC-based tumor vaccines inducing more robust antitumor responses.
Genetic profiles of plasmacytoid (BDCA-4 expressing) DC subtypes-clues to DC subtype function in vivo.
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View SamplesPitx3 is a transcription factor that is expressed in all midbrain dopaminergic (mDA) neurons during early development, but later becomes restricted in dopaminergic subsets of substantia nigra compacta (SNc) and of the ventral tegmental are (VTA) that are vulnerable to neurodegenerative stress (MPTP, 6-OHDA, rotenone, Parkinson's disease). Overall, in mice, Pitx3 is required for developmental survival of ventral SNc neurons and for postnatal survival of VTA neurons (after postnatal day 40). With the aim of determining the gene networks that distinguish Pitx3-vulnerable (Pitx3-positive) from Pitx3-resistant (Pitx3-negative) subsets of SNc and VTA, we performed a comparison at the transcriptome level between FAC-sorted mDA neurons of SNc and VTA that were obtained from wild-type and Pitx3-/- newborn mice. The latter mice have already lost the majority of their TH+Calb1- mDA neurons of ventral SNc (Pitx3-dependent), but their TH+Calb1+ neurons of dorsal SNc (Pitx3-independent), including all of VTA neurons (50% are Pitx3-dependent and 50% Pitx3-independent), are unaffected by Pitx3 deletion. At postnatal day 40, Pitx3-/- mice display a marked loss of dopaminergic subsets of VTA that normally co-express Pitx3 and Calb1 (Pitx3-dependent neurons of VTA).
Rgs6 is required for adult maintenance of dopaminergic neurons in the ventral substantia nigra.
Specimen part
View SamplesWe have discovered subsets of axon guidance molecules and transcription factors that are enriched in specific subsets of olfactory sensory neurons. We have demonstrated guidance activity for three of the candidate axon guidance genes we identified, suggesting that this approach is an efficient method for characterizing guidance systems relevant to olfactory axon targeting. Overall design: Single-cell RNASeq of OMP-expressing olfactory sensory neurons was performed by capture on Fluidigm-C1 followed by sequencing on Illumina HiSeq2500
Coordination of olfactory receptor choice with guidance receptor expression and function in olfactory sensory neurons.
No sample metadata fields
View SamplesPseudomonas aeruginosa is a re-emerging opportunistic pathogen with broad antimicrobial resistance. We have previously reported that the major siderophore pyoverdine from this pathogen disrupts mitochondrial networks and induces a lethal hypoxic response in model host Caernorhabditis elegans. However, the mechanism of such cytotoxicity remained unclear. Here, we demonstrate that pyoverdine translocates into host cells, binding to host ferric iron sources. The reduction of host iron content disrupts mitochondrial function such as NADH oxidation and ATP production and activates mitophagy. This activates a specific immune response that is distinct from colonization-based pathogensis and exposure to downstream pyoverdine effector Exotoxin A. Host response to pyoverdine resembles that of a hypoxic crisis or iron chelator treatment. Furthermore, we demonstrate that pyoverdine is a crucial virulence factor in P. aerguinosa pathogenesis against cystic fibrosis patients; F508 mutation in human CFTR increases susceptibility to pyoverdine-mediated damage.
Pyoverdine, a siderophore from Pseudomonas aeruginosa, translocates into C. elegans, removes iron, and activates a distinct host response.
Specimen part, Treatment
View SamplesAPE1 was knocked down using siRNA in low passage patient-derived PDAC cells and the resulting cells, along with control cells were analysed using scRNA-seq to identify differentially expressed genes and pathways as a result of APE1 knock-down. Overall design: siRNA APE1 knock-down versus scrambled control, The SMARTer system was used to generate cDNA from 96 captured single cells. Unstranded 2x100bp reads were sequenced using a HiSeq2500 on rapid run mode in 1 lane.
APE1/Ref-1 knockdown in pancreatic ductal adenocarcinoma - characterizing gene expression changes and identifying novel pathways using single-cell RNA sequencing.
Subject
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